Occiput to Wall Distance OWD
Original Editor - Lucinda hampton
Top Contributors - Lucinda hampton, Manisha Shrestha and Aminat Abolade
Objective[edit | edit source]
The Occiput to Wall Distance is a routine clinical test for thoracic kyphosis that has been in use for many years.
The occiput-wall distance (OWD) cannot substitute highly accurate clinical measures of kyphosis such as Cobb's angle, OWD has been extensively used in epidemiological studies.
It has been associated with depressed mood, postural instability, muscle weakness and disability in older women, and may account for a large percentage of the dyspnea and restrictive/obstructive respiratory dysfunction that often remains unexplained in older persons[1]
Intended Population[edit | edit source]
The OWD may be abnormal in kyphosis (forward curvature of the upper thoracic spine) due[2]
- Spondyloarthritis
- Scheuermann's Kyphosis
- Osteoporosis
- Postural instability
- Congenital spinal deformity
- Marked obesity.
The occiput-wall distance (OWD), has been associated with postural instability, osteoporosis, disability and depression.[1]
OWD is an easily measurable marker of poor physical function in women.
Method of Use[edit | edit source]
The OWD is measured by having an examinee stand with the back against a wall keeping the posture as straight as possible and with the heels, buttocks and shoulders touching the wall ie standing with both heels and the sacrum against the wall, and with the lower orbital margin and upper margin of the acoustic meatus on the horizontal plane[1].
While looking forward, the examinee also attempts to have the back of the head (the occiput) touch the wall as well. In most normal individuals in this standard position, the occiput will touch the wall and the OWD measurement will be zero. If the occiput does not touch the wall, then the OWD is measured with a ruler. A value greater than 2 cm. is considered to be abnormal[2].
Clinical Significance[edit | edit source]
In both men and women, walking speed and balance were found to be more severely compromised with higher OWD values.
This relationship explained by the biomechanical effects of changes in OWD: in particular, the kyphotic posture of the upper dorsal and cervical spine results in anterior displacement of the center of gravity, and is followed by compensatory widening of the base of support and lumbar hyperlordosis.
This adaptive strategy leads to the balance impairment and involves a consequent increase in the risk of falls.
Changes in postural control may lead to reduced walking speed, since the cautious reduced step length gait, is an obvious response to postural instability[1]
Evidence[edit | edit source]
Reliability[edit | edit source]
Validity[edit | edit source]
Responsiveness[edit | edit source]
Miscellaneous[edit | edit source]
Links[edit | edit source]
References[edit | edit source]
- ↑ 1.0 1.1 1.2 1.3 Antonelli-Incalzi R, Pedone C, Cesari M, Di Iorio A, Bandinelli S, Ferrucci L. Relationship between the occiput-wall distance and physical performance in the elderly: a cross sectional study. Aging clinical and experimental research. 2007 Jun 1;19(3):207-12.Available from:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2651517/ (last accessed 28.4.2020)
- ↑ 2.0 2.1 Centers for Disease Control and Prevention. National health and nutrition examination survey. Available from:https://wwwn.cdc.gov/Nchs/Nhanes/2009-2010/ARX_F.htm#Protocol_and_Procedure (last accessed 28.4.2020)
